TWI581992B - Vehicle intelligent key system - Google Patents

Description

Smart key system

The invention relates to the field of automobile wisdom, in particular to a smart key system.

With the rapid development of smart technology, in the automotive industry, the wisdom key to realize the remote locking and unlocking of the car is widely used. The Smart Key is an electronic lock system that allows you to enter the vehicle without the aid of a mechanical key.

The traditional wisdom key unlocks the car by sending an RF signal to the vehicle by pressing the physical button. However, once the smart key is acquired by others, others can easily unlock the car and drive the car away. Such a smart key makes the car's anti-theft performance poor.

In addition, the smart key usually uses a button battery. If the battery is low in power and there is no backup battery, it will affect the unlocking of the car, causing inconvenience to the owner.

In view of the above situation, it is necessary to provide a smart key system having a voice recognition function, less power consumption, and better security.

A smart key system that includes a smart key and an in-vehicle control device. The smart key includes a first controller, a signal transmitting module and a wireless charging receiving coil. The vehicle control device includes a second controller, a signal receiving module and a wireless charging transmitting coil. The signal transmitting module is configured to collect a voice signal and transmit the voice signal to the signal receiving module; the signal receiving module is configured to transmit the voice signal to the second controller. First The second controller is configured to authenticate the voice signal and control the car to unlock and drive the wireless charging transmitting coil. The wireless charging transmitting coil is configured to transmit the electromagnetic signal to the wireless charging receiving coil; the wireless charging receiving coil is configured to transmit the received electromagnetic signal to the first controller. The first controller is configured to convert the electromagnetic signal into electrical energy and transmit the signal to the signal transmitting module. The smart key also includes a built-in battery electrically coupled to the first controller, the first controller further for transmitting electrical energy to the internal battery.

The smart key system transmits the voice signal to the second controller of the vehicle control device by inputting the voice signal to the smart key, and performs voice recognition on the voice signal by the second controller to verify the identity of the vehicle owner. car. Therefore, the above-mentioned smart key has better anti-theft performance than the single use of the smart key button to unlock.

Meanwhile, the smart key includes a wireless charging receiving coil, and the vehicle control device includes a wireless charging transmitting coil. When the voice recognition is successful, the wireless charging receiving coil can receive the electromagnetic signal, and the first controller outputs the power to the signal transmitting module. Therefore, the above-mentioned smart key can use the voice recognition to wirelessly charge the smart key, and the process of unlocking the car consumes less energy.

100‧‧‧Smart Key

110‧‧‧First controller

120‧‧‧Signal launch module

121‧‧‧Voice Acquisition Module

122‧‧‧Voice codec module

130‧‧‧Wireless charging receiving coil

200‧‧‧In-vehicle control unit

210‧‧‧Second controller

211‧‧‧Transmission module

212‧‧‧Authentication module

220‧‧‧Signal receiving module

221‧‧‧Car voice acquisition module

222‧‧‧Car voice codec module

230‧‧‧Wireless Charging Transmitting Coil

240‧‧‧Car battery

250‧‧‧Unlocking module

1 is a structural block diagram of a smart key system in an embodiment of the present invention.

2 is a flow chart of the unlocking process of the smart key system of the present invention.

A smart key system provided by the present invention will be further described in detail below with reference to the accompanying drawings and embodiments.

Referring to FIG. 1 , a smart key system provided by the present invention includes a smart key 100 and an in-vehicle control device 200 installed in the automobile.

The smart key 100 includes a first controller 110, a signal transmitting module 120, and a wireless charging receiving coil 130.

The wireless charging receiving coil 130 is configured to receive the wirelessly charged electromagnetic signal and transmit the electromagnetic signal to the first controller 110.

The first controller 110 is configured to convert the electromagnetic signal into electrical energy and transmit the electrical energy to the signal transmitting module 120.

The signal transmitting module 120 is configured to collect and transmit voice signals. In this embodiment, the signal transmitting module 120 includes a voice collecting module 121 and a voice codec module 122. The voice collection module 121 is configured to collect voice signals input by the vehicle owner, convert the voice signals into voice analog signals, and transmit the voice signals to the voice codec module 122. The voice codec module 122 is configured to convert the voice analog signal into a voice digital signal and transmit the voice digital signal to the in-vehicle control device 200.

The vehicle control device 200 includes a second controller 210, a signal receiving module 220, a wireless charging transmitting coil 230, a car battery 240, and an unlocking module 250.

The signal receiving module 220 is configured to receive the voice digital signal sent by the signal transmitting module 120, and transmit the voice digital signal to the second controller 210.

The second controller 210 includes a transmission module 211 and an identity verification module 212. The transmission module 211 is configured to receive the voice digital signal transmitted by the signal receiving module 220, and transmit the voice digital signal to the identity verification module 212. The authentication module 212 is configured to store the voice samples of the owner and compare the voice samples with the voice signals input by the vehicle owner to the smart key 100 to authenticate the user. Therefore, the second controller 210 On the one hand, it is used for the received digital signal of the voice, and is processed by a series of algorithms to perform identity verification to achieve the purpose of identifying the identity of the owner. If the authentication is successful, the power provided by the car battery 240 is transmitted to the wireless charging transmitting coil 230, and the wireless charging transmitting coil 230 is driven to transmit the electromagnetic signal. On the other hand, if the identity verification is successful, the control signal is sent to the unlocking module 250.

In this embodiment, the signal receiving module 220 includes an in-vehicle voice collecting module 221 and an in-vehicle voice codec module 222. The vehicle voice collection module 221 is configured to pre-record the voice samples of the vehicle owner, and the vehicle voice codec module 222 is configured to convert the voice sample signals into digital signals, and transmit the signals to the second controller 210 for storage in the identity verification module 212. .

The wireless charging transmitting coil 230 is configured to transmit an electromagnetic signal to the wireless charging receiving coil 130 under the driving of the second controller 210. The wireless charging receiving coil 130 transmits the electromagnetic signal to the first controller 110, and the first controller 110 can convert the electromagnetic signal into electrical energy for transmission to the signal transmitting module 120. Therefore, the operation of the signal transmitting module 120 does not need to consume the power of the smart key 100 itself.

The car battery 240 is used to transmit an electrical energy signal to the second controller 210. After the identity verification module 212 of the second controller 210 verifies the user information, the transmission module 211 sends a control signal to the car battery 240, and the car battery 240 begins to transmit the power signal to the second controller 210, and then the second controller 210 transmits the electrical energy signal to the wireless charging transmit coil 230.

The unlocking module 250 is electrically connected to the second controller 210. After the identity verification module 212 of the second controller 210 verifies the user information, the transmission module 211 sends a control signal to the unlocking module 250, and then unlocks the module 250. Unlock or lock the car.

In use, if the vehicle owner uses the smart key system for the first time, the voice sample is first established by the vehicle control device 200, that is, the vehicle voice signal is stored by the vehicle voice collection module 221 and the vehicle voice codec module 222. In the second controller 210. It can be understood that if there are multiple owners, multiple voice samples can be stored accordingly.

Referring to FIG. 2, if the owner has established a voice sample, the process of unlocking the car by the smart key system includes the following steps.

S101: The wireless charging transmitting coil 230 emits an electromagnetic signal, and when the smart key 100 approaches the automobile, the vehicle owner inputs the first speech to the smart key 100. The signal transmitting module 120 of the smart key 100 converts the first voice signal into a digital signal and transmits the signal to the signal receiving module 220 of the vehicle control device 200.

S102: The signal receiving module 220 transmits the digital signal to the transmission module 211 in the second controller 210, and then the identity verification module 212 performs identity verification on the digital signal to determine whether the verification is successful.

S103: If the identity verification is successful, the second controller 210 drives the wireless charging transmitting coil 230 to send an electromagnetic signal to charge the wireless charging receiving coil 130; the wireless charging receiving coil 130 transmits the electromagnetic signal to the first controller 110, the first controller The electromagnetic signal is converted into electrical energy and transmitted to the signal transmitting module 120. If the authentication fails, the process ends.

S104: The owner further inputs a voice to the smart key 100, and the signal transmitting module 120 converts the second voice signal into a digital signal and transmits the signal to the signal receiving module 220.

S105: The signal receiving module 220 transmits the digital signal to the second controller 210, and the identity verification module 212 in the second controller 210 performs identity verification on the voice digital signal to determine whether the verification is successful.

S106: If the verification is successful, the second controller 210 controls the unlocking module 250 to unlock the car, and if the verification fails, the unlocking cannot be performed.

S107: The process ends.

It can be understood that the smart key system described above can freely control the charging of the smart key by using voice. If the owner does not wish to charge the smart key 100 when unlocking, the above steps S101 to S103 may be omitted.

In other embodiments, the smart key 100 may further include a built-in battery (not shown), and the built-in battery is electrically connected to the first controller 110, and the first controller 110 may transmit power to the built-in battery.

In the smart key system, the signal transmitting module 120 of the smart key 100 includes a voice codec module 122, which can encode and decode the input voice signal, and the second controller 210 of the vehicle control device 200 can identify the voice signal. Verify and then control the car to unlock. Therefore, the smart key system can use the voice recognition method to identify the owner of the vehicle, thereby unlocking the car without the actual button of the smart key 100. Speech recognition technology is a kind of biometric authentication technology. It is a technology that automatically recognizes the identity of a speaker based on the speech parameters that reflect the physiological and behavioral characteristics of the speaker. The encryption type of speech is high, including vocal cord characteristics, speaking mode, connecting sound coupling effect, accent, etc. Therefore, even if the car thief acquires the smart key 100, the car cannot be driven away, and the car has good anti-theft performance.

In addition, in the smart key system, the smart key 100 includes a wireless charging receiving coil 130, and the in-vehicle control device 200 includes a wireless charging transmitting coil 230. After the second controller 210 performs voice recognition, the wireless charging receiving coil 130 can receive wireless power. The signal is supplied to the signal transmitting module 120 by the first controller 110. Therefore, the process of unlocking the car does not require excessive power of the smart key 100.

It should be understood by those skilled in the art that the technical solutions described in the foregoing embodiments may be modified, or some of the technical features may be equivalently replaced; and the modifications or replacements do not deviate from the essence of the corresponding technical solutions. The spirit and scope of the technical solutions of the embodiments of the present invention.

100‧‧‧Smart Key

110‧‧‧First controller

120‧‧‧Signal launch module

121‧‧‧Voice Acquisition Module

122‧‧‧Voice codec module

130‧‧‧Wireless charging receiving coil

200‧‧‧In-vehicle control unit

210‧‧‧Second controller

211‧‧‧Transmission module

212‧‧‧Authentication module

220‧‧‧Signal receiving module

221‧‧‧Car voice acquisition module

222‧‧‧Car voice codec module

230‧‧‧Wireless Charging Transmitting Coil

240‧‧‧Car battery

250‧‧‧Unlocking module

Claims (7)

A smart key system, comprising a smart key and an in-vehicle control device, wherein the smart key comprises a first controller, a signal transmitting module and a wireless charging receiving coil, the in-vehicle control device comprising a second controller and a signal receiving module And the wireless charging transmitting coil; the signal transmitting module is configured to collect the voice signal and transmit the voice signal to the signal receiving module; the signal receiving module is configured to transmit the voice signal to the second controller; Authenticating the voice signal, and controlling the car to unlock and drive the wireless charging transmitting coil; the wireless charging transmitting coil is configured to transmit the electromagnetic signal to the wireless charging receiving coil; the wireless charging receiving coil is configured to receive the electromagnetic The signal is transmitted to the first controller; the first controller is configured to convert the electromagnetic signal into electrical energy and transmit the signal to the signal transmitting module; the smart key further includes an internal battery electrically connected to the first controller, the first controller It is also used to transfer electrical energy to the internal battery. The smart key system of claim 1, wherein the signal transmitting module comprises a voice collecting module and a voice codec module, wherein the voice collecting module is configured to collect voice signals and convert the voice signals into analog signals. The voice codec module is used to convert the analog signal into a digital signal. The smart key system of claim 1, wherein the signal receiving module is further configured to collect a voice sample signal, and the vehicle voice acquisition module and the vehicle voice codec module are included. The smart key system of claim 3, wherein the second controller further comprises an identity verification module, wherein the identity verification module is configured to compare the voice signal with the voice sample signal, and determine whether the identity verification is successful. . The smart key system of claim 4, wherein the second controller comprises a transmission module, and the transmission module module is configured to receive the voice signal transmitted by the signal receiving module, and The voice signal is transmitted to the identity verification module. The smart key system of claim 1, wherein the onboard control device further comprises a car battery for transmitting an electric energy signal to the second controller. The smart key system of claim 1, wherein the onboard control device further comprises an unlocking module, the unlocking module being electrically connected to the second controller for unlocking and locking the automobile.